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    • 2. 发明授权
    • Induction cooking device with display
    • 感应加热烹调器具显示
    • US06660981B2
    • 2003-12-09
    • US10181012
    • 2002-09-18
    • Taizo OgataKenji HattoriYuuji Fujii
    • Taizo OgataKenji HattoriYuuji Fujii
    • H05B606
    • H05B6/062H05B6/1218Y02B40/123
    • An induction-heating cooking device includes: an insulating plate which is partially or entirely light-transmissive, and on which an object to be heated is placed; a heating coil provided under the insulating plate, for heating the object to be heated; a display section for indicating a portion to be heated by the heating coil through the insulating plate; and an output control section for controlling electrical conduction to the heating coil, wherein the display section includes a light emitting section which is provided in the vicinity of a magnetic flux generated by the heating coil, and the light emitting section is laid and connected radially along a radial direction of the heating coil for indicating a portion to be heated by the heating coil.
    • 一种感应加热烹饪器具包括:部分或全部透光的绝缘板,放置被加热物体; 设置在绝缘板下方的加热线圈,用于加热待加热物体; 用于通过绝缘板指示加热线圈要加热的部分的显示部分; 以及输出控制部分,用于控制对加热线圈的导电,其中显示部分包括设置在由加热线圈产生的磁通附近的发光部分,并且发光部分沿着 用于指示加热线圈将被加热的部分的加热线圈的径向方向。
    • 3. 发明申请
    • GAS APPLIANCE MONITORING APPARATUS
    • 气体电器监控装置
    • US20100188261A1
    • 2010-07-29
    • US12532562
    • 2008-03-21
    • Yuuji FujiiHirozumi NakamuraShigeru Murakami
    • Yuuji FujiiHirozumi NakamuraShigeru Murakami
    • G08C19/00G01F3/22F23N5/24
    • F23N5/242F23N2005/185F23N2023/38F23N2023/54F23N2031/18F23N2031/20G01D4/02G01F1/66G01F15/005G01F15/063Y02B90/245Y04S20/36Y04S20/38Y04S20/40
    • The apparatus includes a flow rate measurement unit 17 for measuring the gas flow rate, a gas shut-off valve 2c for shutting off a gas flow path at the abnormal time, an information storage unit 10b for storing various pieces of information based on the measurement result of the flow rate measurement unit 17, a wireless module 11 for transmitting and receiving information to and from a plurality of parties, and a communication switch unit 10c for switching a communication frequency band depending on the parties, wherein the wireless module 11 is integrated with a control circuit board 10 forming the flow rate measurement unit 17 and is housed in a gas meter 2, has at least a communication frequency band with a base station 14 and a communication frequency band with a plurality of gas appliances, and transmits an operation start signal detected by an appliance detection unit 22 of a specific gas appliance as appliance information using an appliance wireless module 11d, and the continuous use time of the specific appliance is detected or is changed based on the information.
    • 该装置包括用于测量气体流量的流量测量单元17,用于在异常时关闭气体流路的气体截止阀2c,用于基于测量存储各种信息的信息存储单元10b 流量测量单元17的结果,用于向多方发送信息的无线模块11和用于根据各方切换通信频带的通信切换单元10c,其中无线模块11被集成 具有形成流量测量单元17并且被容纳在气量计2中的控制电路板10至少具有与基站14的通信频带和与多个燃气器具的通信频带,并且发送操作 由特定燃气器具的器具检测单元22检测到的启动信号作为使用设备无线模块11d的设备信息,以及连续 基于该信息检测或改变特定装置的使用时间。
    • 4. 发明授权
    • Ultrasonic fluid-measuring structure and ultrasonic fluid-measuring apparatus
    • 超声波流体测量结构和超声波流体测量仪器
    • US08925390B2
    • 2015-01-06
    • US13511433
    • 2010-02-04
    • Yuuji FujiiHajime MiyataYukinori OzakiAoi Watanabe
    • Yuuji FujiiHajime MiyataYukinori OzakiAoi Watanabe
    • G01F1/20G01F1/66
    • G01F1/662G01F1/667
    • Provided are an ultrasonic fluid-measuring apparatus and an ultrasonic fluid-measuring apparatus that can prevent the disturbance from occurring in the ultrasonic waves due to disturbance of a fluid. An ultrasonic fluid-measuring structure includes an ultrasonic measuring section adjacent to a channel member. The channel member includes a first ultrasonic wave input/output section and a second ultrasonic wave input/output section provided in a first side wall part, and a reflecting surface provided on an inner surface of the second side wall part. Further, it is configured so that the first ultrasonic wave input/output section and the second ultrasonic wave input/output section are adjacent to each other, and an ultrasonic wave transmission membrane through which the ultrasonic waves pass covers together both the first ultrasonic wave input/output section and the second ultrasonic wave input/output section.
    • 本发明提供一种能够防止由于流体干扰而引起的超声波中的干扰的超声波流体测量装置和超声波流体测量装置。 超声波流体测量结构包括与通道构件相邻的超声波测量部。 通道构件包括设置在第一侧壁部分中的第一超声波输入/输出部分和第二超声波输入/输出部分,以及设置在第二侧壁部分的内表面上的反射表面。 而且,第一超声波输入输出部和第二超声波输入输出部彼此相邻配置,超声波通过的超声波传播膜将第一超声波输入部 /输出部分和第二超声波输入/输出部分。
    • 5. 发明申请
    • ULTRASONIC FLUID-MEASURING STRUCTURE AND ULTRASONIC FLUID-MEASURING APPARATUS
    • 超声流体测量结构和超声波流体测量装置
    • US20120272750A1
    • 2012-11-01
    • US13511433
    • 2010-02-04
    • Yuuji FujiiHajime MiyataYukinori OzakiAoi Watanabe
    • Yuuji FujiiHajime MiyataYukinori OzakiAoi Watanabe
    • G01F1/66
    • G01F1/662G01F1/667
    • Provided are an ultrasonic fluid-measuring apparatus and an ultrasonic fluid-measuring apparatus that can prevent the disturbance from occurring in the ultrasonic waves due to disturbance of a fluid. An ultrasonic fluid-measuring structure includes an ultrasonic measuring section adjacent to a channel member. The channel member includes a first ultrasonic wave input/output section and a second ultrasonic wave input/output section provided in a first side wall part, and a reflecting surface provided on an inner surface of the second side wall part. Further, it is configured so that the first ultrasonic wave input/output section and the second ultrasonic wave input/output section are adjacent to each other, and an ultrasonic wave transmission membrane through which the ultrasonic waves pass covers together both the first ultrasonic wave input/output section and the second ultrasonic wave input/output section.
    • 本发明提供一种能够防止由于流体干扰而引起的超声波中的干扰的超声波流体测量装置和超声波流体测量装置。 超声波流体测量结构包括与通道构件相邻的超声波测量部。 通道构件包括设置在第一侧壁部分中的第一超声波输入/输出部分和第二超声波输入/输出部分,以及设置在第二侧壁部分的内表面上的反射表面。 而且,第一超声波输入输出部和第二超声波输入输出部彼此相邻配置,超声波通过的超声波传播膜将第一超声波输入部 /输出部分和第二超声波输入/输出部分。